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Valerii Smirnov
Valerii Smirnov

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How Rust spoils pattern matching

Rust is renowned as a great low-level language with a strong focus on safety. However, when exploring its pattern matching capabilities, especially with the Box type for heap allocation, certain limitations become evident.

Understanding Rust's Box Type:
In Rust, the Box type is a smart pointer used for heap allocation. It's particularly useful when you have large data that you don't want to copy or when you need to ensure a fixed size for a type that is recursive or of unknown size at compile time. Despite its usefulness, Box introduces challenges in pattern matching due to Rustโ€™s ownership and borrowing rules.

Pattern Matching in Rust:
Pattern matching in Rust is powerful, allowing for concise and readable handling of complex data structures. But when it comes to a Box, things get tricky.

Consider this Rust example:

enum MetaOrData {
    Data(Box<[i32]>),
    Meta(String),
}

fn main() {
    let a = MetaOrData::Data(Box::new([10]));
}
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MetaOrData is an enum with a variant containing a Box of an integer array. The objective is to print the first item of the array if it exists. Attempting an implementation yields:

fn print_first_data_item(it: &MetaOrData) {
    match it {
        MetaOrData::Data(Box([a])) => {
            println!("Box first item {:?}", a); 
        },
        _ => {}
    }
}
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This intuitive code unfortunately won't compile due to Rust's privacy rules:

///    |         ^^^ constructor is not visible here due to private field
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The error occurs because Box is a struct with a private field, preventing direct deconstruction in a pattern match.

Despite discussions in the Rust community (e.g., Rust issue #49733 and Rust issue #29641), direct pattern matching against Box hasn't been implemented, leading to workarounds:

fn print_first_data_item(it: &MetaOrData) {
    match it {
        MetaOrData::Data(data) => {
            let slice = &**data;  // Dereferencing the box to access its content
            if let [a] = slice {
                println!("Box first item {:?}", a);
            }
        },
        _ => {}
    }
}
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Here, we dereference the Box to access its content. While effective, this approach can be less intuitive and slightly cumbersome.

How it should work or OCaml's Approach to Pattern Matching: A Comparison:
Code of logic ported from Rust to Ocaml
Actual code

OCamlโ€™s pattern matching is straightforward, allowing direct deconstruction of lists in match arms, enhancing code readability and simplicity.

Conclusion:
While Rust offers robust safety features and powerful pattern matching capabilities, its handling of Box types in pattern matches can be restrictive and verbose. Conversely, OCaml provides a more straightforward pattern matching syntax. Integrating Rust features in OCaml with modes, as explored in Jane Street's blog, shows the potential for combining these languages' strengths.

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